Author(s)

Ville Saarimaa^1*, Antti Markkula², Kai Arstila³, Jere Manni¹, Jyrki Juhanoja¹

¹Top Analytica Oy, Turku, Finland.
²SSAB Europe Oy, Hämeenlinna, Finland.
³Department of Physics, University of Jyväskylä, Jyväskylä, Finland.

Titanium hexafluoride pretreatments are known to improve paint adhesion and function as a barrier between the coating and the hot dip galvanized (HDG) steel surface. Interactions at the zinc/pretreatment interface are of utmost importance for the formation of pretreatment layers and the corrosion resistance of color coated hot dip galvanized steels. Removal rate of inert aluminum oxide from HDG steel samples by chemical dissolution was studied. XPS measurements showed that the surface Al₂O₃ layer thickness decreased rapidly already at mild alkaline cleaning, while complete removal of Al required severe etching. Low reactivity of an Al₂O₃-rich surface was confirmed by impaired formation of a titanium hexafluoride pretreatment layer. Grain boundaries and deformation twinnings were shown to be of importance for the reactivity of the HDG surface and for the precipitation of the pretreatment chemical. Helium ion microscopy images and electron probe microanalysis (EPMA) of a pretreated sample showed accumulation of the pretreatment chemical at the grain boundaries. Al removal rate was fast at the deformation twinnings at the grain plateaus. Slow Al removal was observed at dendritic valleys and grain boundaries. The results increase understanding of the reactivity of hot dip galvanized steel surface.

Hot Dip Galvanized Steel, Aluminum Oxide, Pretreatment, Surface Morphology, Helium Ion Microscopy

Saarimaa, V. , Markkula, A. , Arstila, K. , Manni, J. and Juhanoja, J. (2017) Effect of Hot Dip Galvanized Steel Surface Chemistry and Morphology on Titanium Hexafluoride Pretreatment. Advances in Materials Physics and Chemistry, 7, 28-41. doi: 10.4236/ampc.2017.72004.